Whole exome sequencing in Alopecia Areata identifies rare variants in KRT82
Alopecia areata is a complex genetic disease that results in hair loss due to the autoimmune-mediated attack of the hair follicle. We previously defined a role for both rare and common variants in our earlier GWAS and linkage studies. Here, we identify rare variants contributing to Alopecia Areata u...
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Veröffentlicht in: | Nature communications 2022-02, Vol.13 (1), p.800-800, Article 800 |
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Zusammenfassung: | Alopecia areata is a complex genetic disease that results in hair loss due to the autoimmune-mediated attack of the hair follicle. We previously defined a role for both rare and common variants in our earlier GWAS and linkage studies. Here, we identify rare variants contributing to Alopecia Areata using a whole exome sequencing and gene-level burden analyses approach on 849 Alopecia Areata patients compared to 15,640 controls.
KRT82
is identified as an Alopecia Areata risk gene with rare damaging variants in 51 heterozygous Alopecia Areata individuals (6.01%), achieving genome-wide significance (
p
= 2.18E−07).
KRT82
encodes a hair-specific type II keratin that is exclusively expressed in the hair shaft cuticle during anagen phase, and its expression is decreased in Alopecia Areata patient skin and hair follicles. Finally, we find that cases with an identified damaging
KRT82
variant and reduced KRT82 expression have elevated perifollicular CD8 infiltrates. In this work, we utilize whole exome sequencing to successfully identify a significant Alopecia Areata disease-relevant gene,
KRT82
, and reveal a proposed mechanism for rare variant predisposition leading to disrupted hair shaft integrity.
Common variants have been discovered to be associated with Alopecia Areata; however, rare variants have been less well studied. Here, the authors use whole-exome sequencing to identify associated rare variants in the hair keratin gene
KRT82
. Further, they find that individuals with Alopecia Areata have reduced expression of KRT82 in the skin and hair follicle. |
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ISSN: | 2041-1723 2041-1723 |
DOI: | 10.1038/s41467-022-28343-3 |